In or out of the groove? Mechanisms of lipid scrambling by TMEM16 proteins.

TitleIn or out of the groove? Mechanisms of lipid scrambling by TMEM16 proteins.
Publication TypeJournal Article
Year of Publication2024
AuthorsFeng Z, Di Zanni E, Alvarenga O, Chakraborty S, Rychlik N, Accardi A
JournalCell Calcium
Date Published2024 May 09

Phospholipid scramblases mediate the rapid movement of lipids between membrane leaflets, a key step in establishing and maintaining membrane homeostasis of the membranes of all eukaryotic cells and their organelles. Thus, impairment of lipid scrambling can lead to a variety of pathologies. How scramblases catalyzed the transbilayer movement of lipids remains poorly understood. Despite the availability of direct structural information on three unrelated families of scramblases, the TMEM16s, the Xkrs, and ATG-9, a unifying mechanism has failed to emerge thus far. Among these, the most extensively studied and best understood are the Ca2+ activated TMEM16s, which comprise ion channels and/or scramblases. Early work supported the view that these proteins provided a hydrophilic, membrane-exposed groove through which the lipid headgroups could permeate. However, structural, and functional experiments have since challenged this mechanism, leading to the proposal that the TMEM16s distort and thin the membrane near the groove to facilitate lipid scrambling. Here, we review our understanding of the structural and mechanistic underpinnings of lipid scrambling by the TMEM16s and discuss how the different proposals account for the various experimental observations.

Alternate JournalCell Calcium
PubMed ID38749289